MANA International Symposium 2025


Nanomaterials - 09

Title

Interlayer Atomic Modulation Changes the Thermoelectric Transport Behavior in Semimetal Films

Author's photo

Authors

Hu Zhao, Takashi Aizawa, and Takao Mori

Affiliations

Thermal Energy Materials Group, MANA, NIMS

URL

https://www.nims.go.jp/mana/research/nanomaterials/thermal-energy-materials.html

Abstract

IVA elements Si and Ge and their compounds possess abundant natural distribution and excellent electrical properties that are widely utilized in Si-based technology. The exploration for potentially high-performance thermoelectric materials within the Group IVA elements is a viable pursuit. In this work, Ca intercalated Germanene -CaGe2 films were grown on sapphire substrates by molecular beam epitaxy. It is found that the partial lack of Ca between the germanene buckled layers effectively increases the Seebeck coefficient without restraining the conductivity. A maximum power factor of 170 μW/mK2 at 523 K, which is 7 times larger than the stoichiometric CaGe2 film, was achieved in Ca0.835Ge2 film by suppression of bipolar effect and formation of a Ca deficient phase. This study presents a promising novel approach to tuning the thermoelectric properties of layered semimetal materials through interlayer atomic modulation which induces the buckled structure of the framework layer, thereby modifying the electronic structure.


Reference

  1. H. Z., Applied Physics Letters 126, 12 (2025). DOI: 10.1063/5.0250240